This blog will reveal the unfounded assumptions at the basis of science. We accept a picture of the world that is both internally and externally inconsistent with itself, with what we observe, and with basic reason. I will uncover questions exposing the core of science it can’t and won’t address, revealing it to be a fraud conducted at our expense.

Monday, April 30, 2007

Gravity is . . . Part II: Expanding Spheres of Light

Light expands, it does so inversely with the square of the distance from its source, and it does so uniformly.Let’s ask a question. The sun is sitting in our sky, but in actuality, it’s sitting in empty space, space that’s empty but for the light that is streaming out from the sun’s surface. The sun has a specific surface area that’s defined by its physical size. That surface area is determined by a simple formula, pi, 3.1418, a constant determined by the relation of the circumference of a circle to its diameter times the diameter of the circle squared.If we move away from the surface of the sun, the area of any sphere at any point is determined the same way. Therefore, as we move away from the sun, the area of the surface of a sphere any point defines increases by the square of its distance from the center of the sun. This is because the only term in the formula that is changing is the distance figure.As we move away from the sun, the area of any sphere increases by the square of the distance, and therefore, the areas of spheres are increasing directly with the square of the distance.This surface area is physically mirroring the inverse square expansion of light, that light diminishes inversely with the square of the distance from its source. If we keep this in mind as we think of the light being emitted in every direction from the surface of the sun, we can see that the light is expanding uniformly over the surface of an imaginary sphere whose area is expanding inversely with its distance from the sun.When I refer to expanding spheres of light, many practical people can’t see what an expanding sphere of light is, but it is precisely as described above. Light is emitted, whether from a light bulb or the sun, and it expands into the area around it. As that area is defined in all directions as the area of a sphere around the source of expansion, and the area of spheres are related by the square of their distance from the source, light from the same source produces an expanding sphere of light at all points around it.The "all points around it" statement raises another point. Whether a match, a light bulb, the sun, at any instant, the matter is emitting a new sphere of light. Thus, around any object emitting light, there is a volume of light containing spheres that have differing amounts of light depending on the distance of each sphere from the source of the light.However, because light is emitted at any instant, any sphere emitted has a connection with the next sphere emitted. This connection is the point of emission. At any point on the surface, light is being emitted, and thus, the light emitted at that point is connected to the light in the sphere emitted the instant before and the light in the sphere that will be emitted in the next instant. Thus, the particles that make up light are a part of the sphere in which they are emitted and a part of a flow of light, with all the flows of light in an expanding volume comprising the light of all the spheres.You won’t find this in any textbooks and, if fact, you won’t find much at all about how light behaves. Textbooks pretty much describe the effects of light, what light does in a prism, diffraction grating or other affective material. This is because science simply doesn’t have the foggiest idea what light is. To science light is just a description, a wave or a particle, and science spends very little time actually looking at how light must behave in order for it to act the way we see it acting.Going back to our flows of light, we know one thing about them. A flow of light that is emitted on the surface of the sun is going to expand as the area available allows it to expand. What does expand mean? It means that at any point on the next sphere, there is going to be less light.The only conclusion that can be made from this is that the flow of light divides as it expands. Less light means less light, and to get from more light to less light, the existing light is going to have to split up so it can cover a bigger area.These are inescapable physical facts of reality. Science doesn’t emphasize that light diminishes uniformly with distance simply because there’s no way it can explain how a wave might do that. Let’s face science’s analogy to water waves squarely. Water waves do diminish with distance, but light waves don’t, for instance, astronomers claim to see light from the beginning of time emitted from galaxies at the end of the universe, so light can’t diminish if they see what they claim they are seeing. And because their claims are fact, at least to them, light can't geometrically diminish.Light is a three dimensional phenomena, it expands in all directions. Water waves, while breaking a plane into three dimensions, are two dimensional, occurring on the flat plan of the surface of the water.And the deal-breaker, Young’s experiment that “proved” light was a wave, shows an image of light and no light on a collecting screen and then analogizes this to water waves where the crests cancel out the troughs. There’s not nothing at the point of cancellation, but something, water.Light, no light, water, water. What wonderful analogy!When it comes to light, science is still in the stone age, not because I have a better theory, but simply because I take the physical realities of light and explain what has to happen for light to behave the way it’s measured to behave.Around an emitting object we have flows of light which, at any point, produce a sphere that defines the amount of light, with the series of spheres around the object expanding, allowing the light to expand and diminish uniformly in the process, which means, the flows are breaking apart to cover the larger surface area available at the point of expansion.At this juncture, we have to ask the logical question about uniformity, why doesn’t the light simply overexpand? What is keeping the light from expanding in every direction, with some of the flows retaining their strength, others, losers in a battle for what must be predominancy, overexpanding into the area that the stronger flows bypassed?We know that light expands uniformly. We don’t see the sun in blotches of light. A light bulb doesn’t light up one side of the room, leaving the other side dark. Unless physically obstructed, light expands uniformly. Why? What is regulating the expansion?We know light starts off as an electrical phenomenon and we know it ends up as an electrical phenomenon. We can note that without electricity there would be no artificial light, but I’ve already noted that the surface of light producing matter is alive with electromagnetic forces. On the other end, when light strikes matter, the matter emits electrons, or at least this is the view of a science that creates a particle for every effect. Light is one effect and thus is represented by a photon, while electricity is another effect and is represented by an electron. The reason science treats the two as different effects is that electricity is clearly generated and passes through wires while light is not (or at least wasn't before fiber optics). The magnetic properties of an electric flow can be measured while the electric properties of light are absent.However, the difference might simply be a difference on how the same particle is structured. Electricity produces massive flows of electrons while light is composed of very small flows that constantly get smaller as the light travels. However, that smallness of the flows would not account for the fact that light does not evidence electric properties except in its production and its dissolution.Is there something about the structure of light that, even though light is composed of electrons, neutralizes the magnetic properties of the light?If we produce a mechanism that regulates the expansion of light and that mechanism would, at the same time, neutralize lights magnetic properties while it was expanding, perhaps the objection that light is not composed of the same particle that electricity is composed of would disappear, at least for objective observers.I’ll use recognized electrical phenomena to construct a mechanism that regulates the uniform expansion of light.Constructing this mechanism is not hard, visualizing how it works not so easy. However, if we keep in mind the picture of flows of light breaking down over the surface of an ever expanding sphere which is a part of a series of spheres that make up the volume of light around an emitting object, we can actually understand how this mechanism both regulates light’s expansion and neutralizes its magnetic properties.

About Me

Peter K. Bros died on October 22, 2008 from lung cancer, secondary to throat cancer.
Before he died he finished his final book entitled "Life Denied" which encapsulates the Copernican Series. It is being edited for publication.